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Henk Zandvoort, Tom Børsen, Michael Deneke & Stephanie J. Bird (2013). Editors' Overview Perspectives on Teaching Social Responsibility to Students in Science and Engineering.

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  1. Engineering Ethics Education: A Comparative Study of Japan and Malaysia.Balamuralithara Balakrishnan, Fumihiko Tochinai & Hidekazu Kanemitsu - forthcoming - Science and Engineering Ethics:1-15.
    This paper reports the findings of a comparative study in which students’ perceived attainment of the objectives of an engineering ethics education and their attitude towards engineering ethics were investigated and compared. The investigation was carried out in Japan and Malaysia, involving 163 and 108 engineering undergraduates respectively. The research method used was based on a survey in which respondents were sent a questionnaire to elicit relevant data. Both descriptive and inferential statistical analyses were performed on the data. The results (...)
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    The Roles of Implicit Understanding of Engineering Ethics in Student Teams’ Discussion.Eun Ah Lee, Magdalena Grohman, Nicholas R. Gans, Marco Tacca & Matthew J. Brown - 2017 - Science and Engineering Ethics 23 (6):1755-1774.
    Following previous work that shows engineering students possess different levels of understanding of ethics—implicit and explicit—this study focuses on how students’ implicit understanding of engineering ethics influences their team discussion process, in cases where there is significant divergence between their explicit and implicit understanding. We observed student teams during group discussions of the ethical issues involved in their engineering design projects. Through the micro-scale discourse analysis based on cognitive ethnography, we found two possible ways in which implicit understanding influenced the (...)
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    Strategies for Teaching Professional Ethics to IT Engineering Degree Students and Evaluating the Result.Rafael Miñano, Ángel Uruburu, Ana Moreno-Romero & Diego Pérez-López - 2017 - Science and Engineering Ethics 23 (1):263-286.
    This paper presents an experience in developing professional ethics by an approach that integrates knowledge, teaching methodologies and assessment coherently. It has been implemented for students in both the Software Engineering and Computer Engineering degree programs of the Technical University of Madrid, in which professional ethics is studied as a part of a required course. Our contribution of this paper is a model for formative assessment that clarifies the learning goals, enhances the results, simplifies the scoring and can be replicated (...)
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    Engineering Students’ Views of Corporate Social Responsibility: A Case Study From Petroleum Engineering.Jessica M. Smith, Carrie J. McClelland & Nicole M. Smith - 2017 - Science and Engineering Ethics 23 (6):1775-1790.
    The mining and energy industries present unique challenges to engineers, who must navigate sometimes competing responsibilities and codes of conduct, such as personal senses of right and wrong, professional ethics codes, and their employers’ corporate social responsibility policies. Corporate social responsibility is the current dominant framework used by industry to conceptualize firms’ responsibilities to their stakeholders, yet has it plays a relatively minor role in engineering ethics education. In this article, we report on an interdisciplinary pedagogical intervention in a petroleum (...)
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    Scientists’ Ethical Obligations and Social Responsibility for Nanotechnology Research.Elizabeth A. Corley, Youngjae Kim & Dietram A. Scheufele - 2016 - Science and Engineering Ethics 22 (1):111-132.
    Scientists’ sense of social responsibility is particularly relevant for emerging technologies. Since a regulatory vacuum can sometimes occur in the early stages of these technologies, individual scientists’ social responsibility might be one of the most significant checks on the risks and negative consequences of this scientific research. In this article, we analyze data from a 2011 mail survey of leading U.S. nanoscientists to explore their perceptions the regarding social and ethical responsibilities for their nanotechnology research. Our analyses show that leading (...)
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    Design and Development of a Course in Professionalism and Ethics for CDIO Curriculum in China.Yinghui Fan, Xingwei Zhang & Xinlu Xie - 2015 - Science and Engineering Ethics 21 (5):1381-1389.
    At Shantou University in 2008, a stand-alone engineering ethics course was first included within a Conceive–Design–Implement–Operate curriculum to address the scarcity of engineering ethics education in China. The philosophy of the course design is to help students to develop an in-depth understanding of social sustainability and to fulfill the obligations of engineers in the twenty-first century within the context of CDIO engineering practices. To guarantee the necessary cooperation of the relevant parties, we have taken advantage of the top-down support from (...)
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  7. Virtue Ethics, Positive Psychology, and a New Model of Science and Engineering Ethics Education.Hyemin Han - 2015 - Science and Engineering Ethics 21 (2):441-460.
    This essay develops a new conceptual framework of science and engineering ethics education based on virtue ethics and positive psychology. Virtue ethicists and positive psychologists have argued that current rule-based moral philosophy, psychology, and education cannot effectively promote students’ moral motivation for actual moral behavior and may even lead to negative outcomes, such as moral schizophrenia. They have suggested that their own theoretical framework of virtue ethics and positive psychology can contribute to the effective promotion of motivation for self-improvement by (...)
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    Second-Guessing Scientists and Engineers: Post Hoc Criticism and the Reform of Practice in Green Chemistry and Engineering.William T. Lynch - 2015 - Science and Engineering Ethics 21 (5):1217-1240.
    The article examines and extends work bringing together engineering ethics and Science and Technology Studies, which had built upon Diane Vaughan’s analysis of the Challenger shuttle accident as a test case. Reconsidering the use of her term “normalization of deviance,” the article argues for a middle path between moralizing against and excusing away engineering practices contributing to engineering disaster. To explore an illustrative pedagogical case and to suggest avenues for constructive research developing this middle path, it examines the emergence of (...)
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    Preparing to Understand and Use Science in the Real World: Interdisciplinary Study Concentrations at the Technical University of Darmstadt.Wolfgang J. Liebert - 2013 - Science and Engineering Ethics 19 (4):1533-1550.
    In order to raise awareness of the ambiguous nature of scientific-technological progress, and of the challenging problems it raises, problems which are not easily addressed by courses in a single discipline and cannot be projected onto disciplinary curricula, Technical University of Darmstadt has established three interdisciplinary study concentrations: “Technology and International Development”, “Environmental Sciences”, and “Sustainable Shaping of Technology and Science”. These three programmes seek to overcome the limitations of strictly disciplinary research and teaching by developing an integrated, problem-oriented approach. (...)
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